Combined effects of work hardening and precipitation strengthening on the cyclic stability of TiNiPdCu-based high-temperature shape memory alloys
The combined effects of work hardening and precipitation strengthening were employed to
improve the cyclic stability of TiNiPdCu-based high-temperature shape memory alloys …
improve the cyclic stability of TiNiPdCu-based high-temperature shape memory alloys …
The occurrence of critical abnormal grain growth in super purity aluminium and high purity copper war-head cones
M Cigdem - International Journal of Materials Research, 1994 - degruyter.com
The response to low cold deformation and annealing of 99.99% purity aluminium and
99.92% copper with a wide range of initial grain sizes has been investigated. Particularly …
99.92% copper with a wide range of initial grain sizes has been investigated. Particularly …
Characterization of Tinipdcu Based High Temperature Shape Memory Alloy Prepared Through Powder Metallurgy Route
This study investigated the preparation of TiNiPdCu-based high temperature shape memory
alloys (HTSMAs) using the powder metallurgy (PM) method and comparison with the alloys …
alloys (HTSMAs) using the powder metallurgy (PM) method and comparison with the alloys …
Dynamic Restoration Processes in High Temperature Tensile Deformation of Etial-0 Aluminium Alloy/Dynamische Entfestigungsprozesse während der …
M Cigdem, R Bozdogan - Practical Metallography, 1995 - degruyter.com
In processing of aluminium alloys recovery and recrystallisation are key factors in governing
the working characteristics and the resultant properties of materials. It is thus vitally important …
the working characteristics and the resultant properties of materials. It is thus vitally important …
Effect of Microstructural Variations on the Corrosion Resistance of Commercial 6351 Aluminium Extrusion Bars/Der Einfluß der Gefügeausbildung auf das …
M Cigdem - Practical Metallography, 1995 - degruyter.com
Al-6351 alloy contains Mg, Si and Mn as chief alloying elements (0, 6 wt% Mg, 0.6 wt% Mn
and 1.0 wt% Si). Magnesium and silicon combine to form an intermetallic compound Mg-Si …
and 1.0 wt% Si). Magnesium and silicon combine to form an intermetallic compound Mg-Si …